/** * $Id$ * * ***** BEGIN GPL LICENSE BLOCK ***** * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * Contributor(s): Blender Foundation (2008). * * ***** END GPL LICENSE BLOCK ***** */ #include #include #include #include #include #include "MEM_guardedalloc.h" #include "RNA_access.h" #include "RNA_define.h" #include "RNA_types.h" #include "rna_internal.h" #define RNA_VERSION_DATE "$Id$" #ifdef _WIN32 #ifndef snprintf #define snprintf _snprintf #endif #endif /* Preprocessing */ static void rna_print_c_string(FILE *f, const char *str) { static char *escape[] = {"\''", "\"\"", "\??", "\\\\","\aa", "\bb", "\ff", "\nn", "\rr", "\tt", "\vv", NULL}; int i, j; fprintf(f, "\""); for(i=0; str[i]; i++) { for(j=0; escape[j]; j++) if(str[i] == escape[j][0]) break; if(escape[j]) fprintf(f, "\\%c", escape[j][1]); else fprintf(f, "%c", str[i]); } fprintf(f, "\""); } static char *rna_alloc_function_name(const char *structname, const char *propname, const char *type) { AllocDefRNA *alloc; char buffer[2048]; char *result; snprintf(buffer, sizeof(buffer), "rna_%s_%s_%s", structname, propname, type); result= MEM_callocN(sizeof(char)*strlen(buffer)+1, "rna_alloc_function_name"); strcpy(result, buffer); alloc= MEM_callocN(sizeof(AllocDefRNA), "AllocDefRNA"); alloc->mem= result; rna_addtail(&DefRNA.allocs, alloc); return result; } static const char *rna_type_type(PropertyRNA *prop) { switch(prop->type) { case PROP_BOOLEAN: case PROP_INT: case PROP_ENUM: return "int"; case PROP_FLOAT: return "float"; case PROP_STRING: return "char*"; default: return "void*"; } } static char *rna_def_property_get_func(FILE *f, StructRNA *srna, PropertyRNA *prop, PropertyDefRNA *dp) { char *func; if(!dp->dnastructname || !dp->dnaname) { fprintf(stderr, "rna_def_property_get_func: %s.%s has no valid dna info.\n", srna->identifier, prop->identifier); DefRNA.error= 1; return NULL; } if(prop->type == PROP_STRING && ((StringPropertyRNA*)prop)->maxlength == 0) { fprintf(stderr, "rna_def_property_get_func: string %s.%s has max length 0.\n", srna->identifier, prop->identifier); DefRNA.error= 1; return NULL; } func= rna_alloc_function_name(srna->identifier, prop->identifier, "get"); switch(prop->type) { case PROP_STRING: { StringPropertyRNA *sprop= (StringPropertyRNA*)prop; fprintf(f, "static void %s(PointerRNA *ptr, char *value)\n", func); fprintf(f, "{\n"); fprintf(f, " %s *data= (%s*)ptr->data;\n", dp->dnastructname, dp->dnastructname); fprintf(f, " BLI_strncpy(value, data->%s, %d);\n", dp->dnaname, sprop->maxlength); fprintf(f, "}\n\n"); break; } default: if(prop->arraylength) { fprintf(f, "static %s %s(PointerRNA *ptr, int index)\n", rna_type_type(prop), func); fprintf(f, "{\n"); fprintf(f, " %s *data= (%s*)ptr->data;\n", dp->dnastructname, dp->dnastructname); if(prop->type == PROP_BOOLEAN && dp->booleanbit && dp->dnaarraylength==1) fprintf(f, " return ((data->%s & (%d<dnaname, dp->booleanbit); else if(prop->type == PROP_BOOLEAN && dp->booleanbit) fprintf(f, " return ((data->%s[index] & %d) != 0);\n", dp->dnaname, dp->booleanbit); else fprintf(f, " return (%s)(data->%s[index]);\n", rna_type_type(prop), dp->dnaname); fprintf(f, "}\n\n"); } else { fprintf(f, "static %s %s(PointerRNA *ptr)\n", rna_type_type(prop), func); fprintf(f, "{\n"); fprintf(f, " %s *data= (%s*)ptr->data;\n", dp->dnastructname, dp->dnastructname); if(prop->type == PROP_BOOLEAN && dp->booleanbit) fprintf(f, " return (((data->%s) & %d) != 0);\n", dp->dnaname, dp->booleanbit); else fprintf(f, " return (%s)(data->%s);\n", rna_type_type(prop), dp->dnaname); fprintf(f, "}\n\n"); } break; } return func; } static const char *rna_function_string(void *func) { return (func)? (const char*)func: "NULL"; } static void rna_float_print(FILE *f, float num) { if(num == -FLT_MAX) fprintf(f, "-FLT_MAX"); else if(num == FLT_MAX) fprintf(f, "FLT_MAX"); else if((int)num == num) fprintf(f, "%.1ff", num); else fprintf(f, "%.10ff", num); } static void rna_clamp_value(FILE *f, PropertyRNA *prop) { if(prop->type == PROP_INT) { IntPropertyRNA *iprop= (IntPropertyRNA*)prop; if(iprop->hardmin != INT_MIN || iprop->hardmax != INT_MAX) fprintf(f, " CLAMP(value, %d, %d);\n", iprop->hardmin, iprop->hardmax); } else if(prop->type == PROP_FLOAT) { FloatPropertyRNA *fprop= (FloatPropertyRNA*)prop; if(fprop->hardmin != -FLT_MAX || fprop->hardmax != FLT_MAX) { fprintf(f, " CLAMP(value, "); rna_float_print(f, fprop->hardmin); fprintf(f, ", "); rna_float_print(f, fprop->hardmax); fprintf(f, ");\n"); } } } static char *rna_def_property_set_func(FILE *f, StructRNA *srna, PropertyRNA *prop, PropertyDefRNA *dp) { char *func; if(!dp->dnastructname || !dp->dnaname) { if(!(prop->flag & PROP_NOT_EDITABLE)) { fprintf(stderr, "rna_def_property_set_func: %s.%s has no valid dna info.\n", srna->identifier, prop->identifier); DefRNA.error= 1; } return NULL; } func= rna_alloc_function_name(srna->identifier, prop->identifier, "set"); switch(prop->type) { case PROP_STRING: { StringPropertyRNA *sprop= (StringPropertyRNA*)prop; fprintf(f, "static void %s(PointerRNA *ptr, const char *value)\n", func); fprintf(f, "{\n"); fprintf(f, " %s *data= (%s*)ptr->data;\n", dp->dnastructname, dp->dnastructname); fprintf(f, " BLI_strncpy(data->%s, value, %d);\n", dp->dnaname, sprop->maxlength); fprintf(f, "}\n\n"); break; } default: if(prop->arraylength) { fprintf(f, "static void %s(PointerRNA *ptr, int index, %s value)\n", func, rna_type_type(prop)); fprintf(f, "{\n"); fprintf(f, " %s *data= (%s*)ptr->data;\n", dp->dnastructname, dp->dnastructname); if(prop->type == PROP_BOOLEAN && dp->booleanbit && dp->dnaarraylength==1) { fprintf(f, " if(value) data->%s |= (%d<dnaname, dp->booleanbit); fprintf(f, " else data->%s &= ~(%d<dnaname, dp->booleanbit); } else if(prop->type == PROP_BOOLEAN && dp->booleanbit) { fprintf(f, " if(value) data->%s[index] |= %d;\n", dp->dnaname, dp->booleanbit); fprintf(f, " else data->%s[index] &= ~%d;\n", dp->dnaname, dp->booleanbit); } else { rna_clamp_value(f, prop); fprintf(f, " data->%s[index]= value;\n", dp->dnaname); } fprintf(f, "}\n\n"); } else { fprintf(f, "static void %s(PointerRNA *ptr, %s value)\n", func, rna_type_type(prop)); fprintf(f, "{\n"); fprintf(f, " %s *data= (%s*)ptr->data;\n", dp->dnastructname, dp->dnastructname); if(prop->type == PROP_BOOLEAN && dp->booleanbit) { fprintf(f, " if(value) data->%s |= %d;\n", dp->dnaname, dp->booleanbit); fprintf(f, " else data->%s &= ~%d;\n", dp->dnaname, dp->booleanbit); } else { rna_clamp_value(f, prop); fprintf(f, " data->%s= value;\n", dp->dnaname); } fprintf(f, "}\n\n"); } break; } return func; } static char *rna_def_property_length_func(FILE *f, StructRNA *srna, PropertyRNA *prop, PropertyDefRNA *dp) { char *func= NULL; if(prop->type == PROP_STRING) { if(!dp->dnastructname || !dp->dnaname) { fprintf(stderr, "rna_def_property_length_func: %s.%s has no valid dna info.\n", srna->identifier, prop->identifier); DefRNA.error= 1; return NULL; } func= rna_alloc_function_name(srna->identifier, prop->identifier, "length"); fprintf(f, "static int %s(PointerRNA *ptr)\n", func); fprintf(f, "{\n"); fprintf(f, " %s *data= (%s*)ptr->data;\n", dp->dnastructname, dp->dnastructname); fprintf(f, " return strlen(data->%s);\n", dp->dnaname); fprintf(f, "}\n\n"); } else if(prop->type == PROP_COLLECTION) { if(prop->type == PROP_COLLECTION && !dp->dnalengthname) { fprintf(stderr, "rna_def_property_length_func: %s.%s has no valid dna info.\n", srna->identifier, prop->identifier); DefRNA.error= 1; return NULL; } func= rna_alloc_function_name(srna->identifier, prop->identifier, "length"); fprintf(f, "static int %s(PointerRNA *ptr)\n", func); fprintf(f, "{\n"); fprintf(f, " %s *data= (%s*)ptr->data;\n", dp->dnastructname, dp->dnastructname); fprintf(f, " return data->%s;\n", dp->dnalengthname); fprintf(f, "}\n\n"); } return func; } static char *rna_def_property_begin_func(FILE *f, StructRNA *srna, PropertyRNA *prop, PropertyDefRNA *dp) { char *func; if(!dp->dnastructname || !dp->dnaname) { fprintf(stderr, "rna_def_property_begin_func: %s.%s has no valid dna info.\n", srna->identifier, prop->identifier); DefRNA.error= 1; return NULL; } func= rna_alloc_function_name(srna->identifier, prop->identifier, "begin"); if(dp->dnalengthname) { fprintf(f, "static void %s(CollectionPropertyIterator *iter, PointerRNA *ptr)\n", func); fprintf(f, "{\n"); fprintf(f, " %s *data= (%s*)ptr->data;\n", dp->dnastructname, dp->dnastructname); fprintf(f, " rna_iterator_array_begin(iter, data->%s, sizeof(data->%s[0]), data->%s);\n", dp->dnaname, dp->dnaname, dp->dnalengthname); fprintf(f, "}\n\n"); } else { fprintf(f, "static void %s(CollectionPropertyIterator *iter, PointerRNA *ptr)\n", func); fprintf(f, "{\n"); fprintf(f, " %s *data= (%s*)ptr->data;\n", dp->dnastructname, dp->dnastructname); fprintf(f, " rna_iterator_listbase_begin(iter, &data->%s);\n", dp->dnaname); fprintf(f, "}\n\n"); } return func; } static void rna_def_property_funcs(FILE *f, PropertyDefRNA *dp) { PropertyRNA *prop; StructRNA *srna; srna= dp->srna; prop= dp->prop; switch(prop->type) { case PROP_BOOLEAN: { BooleanPropertyRNA *bprop= (BooleanPropertyRNA*)prop; if(!prop->arraylength) { if(!bprop->get) bprop->get= (void*)rna_def_property_get_func(f, srna, prop, dp); if(!bprop->set) bprop->set= (void*)rna_def_property_set_func(f, srna, prop, dp); } else { if(!bprop->getarray) bprop->getarray= (void*)rna_def_property_get_func(f, srna, prop, dp); if(!bprop->setarray) bprop->setarray= (void*)rna_def_property_set_func(f, srna, prop, dp); } break; } case PROP_INT: { IntPropertyRNA *iprop= (IntPropertyRNA*)prop; if(!prop->arraylength) { if(!iprop->get) iprop->get= (void*)rna_def_property_get_func(f, srna, prop, dp); if(!iprop->set) iprop->set= (void*)rna_def_property_set_func(f, srna, prop, dp); } else { if(!iprop->getarray) iprop->getarray= (void*)rna_def_property_get_func(f, srna, prop, dp); if(!iprop->setarray) iprop->setarray= (void*)rna_def_property_set_func(f, srna, prop, dp); } break; } case PROP_FLOAT: { FloatPropertyRNA *fprop= (FloatPropertyRNA*)prop; if(!prop->arraylength) { if(!fprop->get) fprop->get= (void*)rna_def_property_get_func(f, srna, prop, dp); if(!fprop->set) fprop->set= (void*)rna_def_property_set_func(f, srna, prop, dp); } else { if(!fprop->getarray) fprop->getarray= (void*)rna_def_property_get_func(f, srna, prop, dp); if(!fprop->setarray) fprop->setarray= (void*)rna_def_property_set_func(f, srna, prop, dp); } break; } case PROP_ENUM: { EnumPropertyRNA *eprop= (EnumPropertyRNA*)prop; if(!eprop->get) eprop->get= (void*)rna_def_property_get_func(f, srna, prop, dp); if(!eprop->set) eprop->set= (void*)rna_def_property_set_func(f, srna, prop, dp); break; } case PROP_STRING: { StringPropertyRNA *sprop= (StringPropertyRNA*)prop; if(!sprop->get) sprop->get= (void*)rna_def_property_get_func(f, srna, prop, dp); if(!sprop->length) sprop->length= (void*)rna_def_property_length_func(f, srna, prop, dp); if(!sprop->set) sprop->set= (void*)rna_def_property_set_func(f, srna, prop, dp); break; } case PROP_POINTER: { PointerPropertyRNA *pprop= (PointerPropertyRNA*)prop; if(!pprop->get) pprop->get= (void*)rna_def_property_get_func(f, srna, prop, dp); if(!pprop->set) pprop->set= (void*)rna_def_property_set_func(f, srna, prop, dp); if(!pprop->structtype && !pprop->type) { fprintf(stderr, "rna_def_property_funcs: %s.%s, collection must have either type function or fixed type.\n", srna->identifier, prop->identifier); DefRNA.error= 1; } break; } case PROP_COLLECTION: { CollectionPropertyRNA *cprop= (CollectionPropertyRNA*)prop; if(dp->dnatype && strcmp(dp->dnatype, "ListBase")==0) { if(!cprop->begin) cprop->begin= (void*)rna_def_property_begin_func(f, srna, prop, dp); } else if(dp->dnalengthname) { if(!cprop->begin) cprop->begin= (void*)rna_def_property_begin_func(f, srna, prop, dp); if(!cprop->length) cprop->length= (void*)rna_def_property_length_func(f, srna, prop, dp); } if(!cprop->begin) { fprintf(stderr, "rna_def_property_funcs: %s.%s, collection must have a begin function.\n", srna->identifier, prop->identifier); DefRNA.error= 1; } if(!cprop->next) { fprintf(stderr, "rna_def_property_funcs: %s.%s, collection must have a next function.\n", srna->identifier, prop->identifier); DefRNA.error= 1; } if(!cprop->get) { fprintf(stderr, "rna_def_property_funcs: %s.%s, collection must have a get function.\n", srna->identifier, prop->identifier); DefRNA.error= 1; } if(!cprop->structtype && !cprop->type) { fprintf(stderr, "rna_def_property_funcs: %s.%s, collection must have either type function or fixed type.\n", srna->identifier, prop->identifier); DefRNA.error= 1; } break; } } } static const char *rna_find_type(const char *type) { StructDefRNA *ds; for(ds=DefRNA.structs.first; ds; ds=ds->next) if(ds->dnaname && strcmp(ds->dnaname, type)==0) return ds->srna->identifier; return NULL; } static void rna_auto_types() { StructDefRNA *ds; PropertyDefRNA *dp; for(ds=DefRNA.structs.first; ds; ds=ds->next) { for(dp=ds->properties.first; dp; dp=dp->next) { if(dp->dnatype) { if(dp->prop->type == PROP_POINTER) { PointerPropertyRNA *pprop= (PointerPropertyRNA*)dp->prop; if(!pprop->structtype && !pprop->type) pprop->structtype= (StructRNA*)rna_find_type(dp->dnatype); } else if(dp->prop->type== PROP_COLLECTION) { CollectionPropertyRNA *cprop= (CollectionPropertyRNA*)dp->prop; if(!cprop->structtype && !cprop->type && strcmp(dp->dnatype, "ListBase")==0) cprop->structtype= (StructRNA*)rna_find_type(dp->dnatype); } } } } } static void rna_auto_functions(FILE *f) { StructDefRNA *ds; PropertyDefRNA *dp; fprintf(f, "/* Autogenerated Functions */\n\n"); for(ds=DefRNA.structs.first; ds; ds=ds->next) for(dp=ds->properties.first; dp; dp=dp->next) rna_def_property_funcs(f, dp); } static const char *rna_property_structname(PropertyType type) { switch(type) { case PROP_BOOLEAN: return "BooleanPropertyRNA"; case PROP_INT: return "IntPropertyRNA"; case PROP_FLOAT: return "FloatPropertyRNA"; case PROP_STRING: return "StringPropertyRNA"; case PROP_ENUM: return "EnumPropertyRNA"; case PROP_POINTER: return "PointerPropertyRNA"; case PROP_COLLECTION: return "CollectionPropertyRNA"; default: return "UnknownPropertyRNA"; } } static const char *rna_property_typename(PropertyType type) { switch(type) { case PROP_BOOLEAN: return "PROP_BOOLEAN"; case PROP_INT: return "PROP_INT"; case PROP_FLOAT: return "PROP_FLOAT"; case PROP_STRING: return "PROP_STRING"; case PROP_ENUM: return "PROP_ENUM"; case PROP_POINTER: return "PROP_POINTER"; case PROP_COLLECTION: return "PROP_COLLECTION"; default: return "PROP_UNKNOWN"; } } static const char *rna_property_subtypename(PropertyType type) { switch(type) { case PROP_NONE: return "PROP_NONE"; case PROP_UNSIGNED: return "PROP_UNSIGNED"; case PROP_FILEPATH: return "PROP_FILEPATH"; case PROP_COLOR: return "PROP_COLOR"; case PROP_VECTOR: return "PROP_VECTOR"; case PROP_MATRIX: return "PROP_MATRIX"; default: return "PROP_UNKNOWN"; } } static void rna_generate_prototypes(BlenderRNA *brna, FILE *f) { StructRNA *srna; for(srna=brna->structs.first; srna; srna=srna->next) fprintf(f, "StructRNA RNA_%s;\n", srna->identifier); fprintf(f, "\n"); fprintf(f, "BlenderRNA BLENDER_RNA = {"); srna= brna->structs.first; if(srna) fprintf(f, "{&RNA_%s, ", srna->identifier); else fprintf(f, "{NULL, "); srna= brna->structs.last; if(srna) fprintf(f, "&RNA_%s}", srna->identifier); else fprintf(f, "NULL}"); fprintf(f, "};\n\n"); } static void rna_generate_struct(BlenderRNA *brna, StructRNA *srna, FILE *f) { PropertyRNA *prop; fprintf(f, "/* %s */\n", srna->name); if(srna->properties.first) fprintf(f, "\n"); for(prop=srna->properties.first; prop; prop=prop->next) fprintf(f, "%s%s rna_%s_%s;\n", (prop->flag & PROP_EXPORT)? "": "static ", rna_property_structname(prop->type), srna->identifier, prop->identifier); fprintf(f, "\n"); for(prop=srna->properties.first; prop; prop=prop->next) { switch(prop->type) { case PROP_ENUM: { EnumPropertyRNA *eprop= (EnumPropertyRNA*)prop; int i; if(eprop->item) { fprintf(f, "static EnumPropertyItem rna_%s_%s_items[%d] = {", srna->identifier, prop->identifier, eprop->totitem); for(i=0; itotitem; i++) { fprintf(f, "{%d, ", eprop->item[i].value); rna_print_c_string(f, eprop->item[i].identifier); fprintf(f, ", "); rna_print_c_string(f, eprop->item[i].name); fprintf(f, "}"); if(i != eprop->totitem-1) fprintf(f, ", "); } fprintf(f, "};\n\n"); } else { fprintf(stderr, "rna_generate_structs: %s.%s, enum must have items defined.\n", srna->identifier, prop->identifier); DefRNA.error= 1; } break; } case PROP_BOOLEAN: { BooleanPropertyRNA *bprop= (BooleanPropertyRNA*)prop; unsigned int i; if(bprop->defaultarray) { fprintf(f, "static int rna_%s_%s_default[%d] = {", srna->identifier, prop->identifier, prop->arraylength); for(i=0; iarraylength; i++) { fprintf(f, "%d", bprop->defaultarray[i]); if(i != prop->arraylength-1) fprintf(f, ", "); } fprintf(f, "};\n\n"); } break; } case PROP_INT: { IntPropertyRNA *iprop= (IntPropertyRNA*)prop; unsigned int i; if(iprop->defaultarray) { fprintf(f, "static int rna_%s_%s_default[%d] = {", srna->identifier, prop->identifier, prop->arraylength); for(i=0; iarraylength; i++) { fprintf(f, "%d", iprop->defaultarray[i]); if(i != prop->arraylength-1) fprintf(f, ", "); } fprintf(f, "};\n\n"); } break; } case PROP_FLOAT: { FloatPropertyRNA *fprop= (FloatPropertyRNA*)prop; unsigned int i; if(fprop->defaultarray) { fprintf(f, "static float rna_%s_%s_default[%d] = {", srna->identifier, prop->identifier, prop->arraylength); for(i=0; iarraylength; i++) { rna_float_print(f, fprop->defaultarray[i]); if(i != prop->arraylength-1) fprintf(f, ", "); } fprintf(f, "};\n\n"); } break; } default: break; } fprintf(f, "%s%s rna_%s_%s = {\n", (prop->flag & PROP_EXPORT)? "": "static ", rna_property_structname(prop->type), srna->identifier, prop->identifier); if(prop->next) fprintf(f, "\t{(PropertyRNA*)&rna_%s_%s, ", srna->identifier, prop->next->identifier); else fprintf(f, "\t{NULL, "); if(prop->prev) fprintf(f, "(PropertyRNA*)&rna_%s_%s,\n", srna->identifier, prop->prev->identifier); else fprintf(f, "NULL,\n"); fprintf(f, "\t%d, ", prop->magic); rna_print_c_string(f, prop->identifier); fprintf(f, ", %d, ", prop->flag); rna_print_c_string(f, prop->name); fprintf(f, ",\n\t"); rna_print_c_string(f, prop->description); fprintf(f, ",\n"); fprintf(f, "\t%s, %s, %d,\n", rna_property_typename(prop->type), rna_property_subtypename(prop->subtype), prop->arraylength); fprintf(f, "\t%s},\n", rna_function_string(prop->notify)); switch(prop->type) { case PROP_BOOLEAN: { BooleanPropertyRNA *bprop= (BooleanPropertyRNA*)prop; fprintf(f, "\t%s, %s, %s, %s, %d, ", rna_function_string(bprop->get), rna_function_string(bprop->set), rna_function_string(bprop->getarray), rna_function_string(bprop->setarray), bprop->defaultvalue); if(bprop->defaultarray) fprintf(f, "rna_%s_%s_default\n", srna->name, prop->identifier); else fprintf(f, "NULL\n"); break; } case PROP_INT: { IntPropertyRNA *iprop= (IntPropertyRNA*)prop; fprintf(f, "\t%s, %s, %s, %s, %d, %d, %d, %d, %d,\n\t%d, \n", rna_function_string(iprop->get), rna_function_string(iprop->set), rna_function_string(iprop->getarray), rna_function_string(iprop->setarray), iprop->softmin, iprop->softmax, iprop->hardmin, iprop->hardmax, iprop->step, iprop->defaultvalue); if(iprop->defaultarray) fprintf(f, "rna_%s_%s_default\n", srna->name, prop->identifier); else fprintf(f, "NULL\n"); break; } case PROP_FLOAT: { FloatPropertyRNA *fprop= (FloatPropertyRNA*)prop; fprintf(f, "\t%s, %s, %s, %s, ", rna_function_string(fprop->get), rna_function_string(fprop->set), rna_function_string(fprop->getarray), rna_function_string(fprop->setarray)); rna_float_print(f, fprop->softmin); fprintf(f, ", "); rna_float_print(f, fprop->softmax); fprintf(f, ", "); rna_float_print(f, fprop->hardmin); fprintf(f, ", "); rna_float_print(f, fprop->hardmax); fprintf(f, ", "); rna_float_print(f, fprop->step); fprintf(f, ", "); rna_float_print(f, fprop->precision); fprintf(f, ", "); rna_float_print(f, fprop->defaultvalue); fprintf(f, ", "); if(fprop->defaultarray) fprintf(f, "rna_%s_%s_default\n", srna->name, prop->identifier); else fprintf(f, "NULL\n"); break; } case PROP_STRING: { StringPropertyRNA *sprop= (StringPropertyRNA*)prop; fprintf(f, "\t%s, %s, %s, %d, ", rna_function_string(sprop->get), rna_function_string(sprop->length), rna_function_string(sprop->set), sprop->maxlength); rna_print_c_string(f, sprop->defaultvalue); fprintf(f, "\n"); break; } case PROP_ENUM: { EnumPropertyRNA *eprop= (EnumPropertyRNA*)prop; fprintf(f, "\t%s, %s, rna_%s_%s_items, %d, %d\n", rna_function_string(eprop->get), rna_function_string(eprop->set), srna->identifier, prop->identifier, eprop->totitem, eprop->defaultvalue); break; } case PROP_POINTER: { PointerPropertyRNA *pprop= (PointerPropertyRNA*)prop; fprintf(f, "\t%s, %s, %s, ", rna_function_string(pprop->get), rna_function_string(pprop->set), rna_function_string(pprop->type)); if(pprop->structtype) fprintf(f, "&RNA_%s\n", (char*)pprop->structtype); else fprintf(f, "NULL\n"); break; } case PROP_COLLECTION: { CollectionPropertyRNA *cprop= (CollectionPropertyRNA*)prop; fprintf(f, "\t%s, %s, %s, %s, %s, %s, %s, %s, ", rna_function_string(cprop->begin), rna_function_string(cprop->next), rna_function_string(cprop->end), rna_function_string(cprop->get), rna_function_string(cprop->type), rna_function_string(cprop->length), rna_function_string(cprop->lookupint), rna_function_string(cprop->lookupstring)); if(cprop->structtype) fprintf(f, "&RNA_%s\n", (char*)cprop->structtype); else fprintf(f, "NULL\n"); break; } } fprintf(f, "};\n\n"); } fprintf(f, "StructRNA RNA_%s = {\n", srna->identifier); if(srna->next) fprintf(f, "\t&RNA_%s, ", srna->next->identifier); else fprintf(f, "\tNULL, "); if(srna->prev) fprintf(f, "&RNA_%s,\n", srna->prev->identifier); else fprintf(f, "NULL,\n"); fprintf(f, "\t"); rna_print_c_string(f, srna->identifier); fprintf(f, ", %d, ", srna->flag); rna_print_c_string(f, srna->name); fprintf(f, ",\n"); prop= srna->nameproperty; if(prop) fprintf(f, "\t(PropertyRNA*)&rna_%s_%s, ", srna->identifier, prop->identifier); else fprintf(f, "\tNULL, "); fprintf(f, "\t(PropertyRNA*)&rna_%s_rna_properties,\n", srna->identifier); prop= srna->properties.first; if(prop) fprintf(f, "\t{(PropertyRNA*)&rna_%s_%s, ", srna->identifier, prop->identifier); else fprintf(f, "\t{NULL, "); prop= srna->properties.last; if(prop) fprintf(f, "(PropertyRNA*)&rna_%s_%s}\n", srna->identifier, prop->identifier); else fprintf(f, "NULL}\n"); fprintf(f, "};\n"); fprintf(f, "\n"); } typedef struct RNAProcessItem { char *filename; void (*define)(BlenderRNA *brna); } RNAProcessItem; RNAProcessItem PROCESS_ITEMS[]= { {"rna_ID.c", RNA_def_ID_types}, {"rna_main.c", RNA_def_main}, {"rna_mesh.c", RNA_def_mesh}, {"rna_object.c", RNA_def_object}, {"rna_rna.c", RNA_def_rna}, {"rna_scene.c", RNA_def_scene}, {NULL, NULL}}; static int rna_preprocess(char *basedirectory, FILE *f) { BlenderRNA *brna; StructRNA *srna; int i, status; fprintf(f, "\n/* Automatically generated struct definitions for the Data API.\n" " Do not edit manually, changes will be overwritten */\n\n" "#define RNA_RUNTIME\n\n"); brna= RNA_create(); fprintf(f, "#include \n"); fprintf(f, "#include \n"); fprintf(f, "#include \n\n"); fprintf(f, "#include \"BLI_blenlib.h\"\n\n"); fprintf(f, "#include \"BKE_utildefines.h\"\n\n"); fprintf(f, "#include \"RNA_define.h\"\n"); fprintf(f, "#include \"RNA_types.h\"\n"); fprintf(f, "#include \"rna_internal.h\"\n\n"); for(i=0; PROCESS_ITEMS[i].filename; i++) if(PROCESS_ITEMS[i].define) PROCESS_ITEMS[i].define(brna); rna_auto_types(); rna_generate_prototypes(brna, f); for(i=0; PROCESS_ITEMS[i].filename; i++) fprintf(f, "#include \"%s\"\n", PROCESS_ITEMS[i].filename); fprintf(f, "\n"); rna_auto_functions(f); for(srna=brna->structs.first; srna; srna=srna->next) rna_generate_struct(brna, srna, f); status= DefRNA.error; RNA_define_free(brna); RNA_free(brna); return status; } static void make_bad_file(char *file) { FILE *fp= fopen(file, "w"); fprintf(fp, "ERROR! Cannot make correct RNA.c file, STUPID!\n"); fclose(fp); } #ifndef BASE_HEADER #define BASE_HEADER "../" #endif int main(int argc, char **argv) { FILE *file; int totblock, return_status = 0; if (argc!=2 && argc!=3) { printf("Usage: %s outfile.c [base directory]\n", argv[0]); return_status = 1; } else { file = fopen(argv[1], "w"); if (!file) { printf ("Unable to open file: %s\n", argv[1]); return_status = 1; } else { char baseDirectory[256]; printf("Running makesrna, program versions %s\n", RNA_VERSION_DATE); if (argc==3) strcpy(baseDirectory, argv[2]); else strcpy(baseDirectory, BASE_HEADER); return_status= (rna_preprocess(baseDirectory, file)); fclose(file); if(return_status) { /* error */ make_bad_file(argv[1]); return_status = 1; } } } totblock= MEM_get_memory_blocks_in_use(); if(totblock!=0) { printf("Error Totblock: %d\n",totblock); MEM_printmemlist(); } return return_status; }